TY  - EJOUR
AU  - Chava, Phanish
AU  - Alius, Heidrun
AU  - Buehler, Jonas
AU  - Cabrera-Galicia, Alfonso R
AU  - Degenhardt, Carsten
AU  - Gneiting, Thomas
AU  - Harff, Markus
AU  - Heide, Thomas
AU  - Javorka, Peter
AU  - Kessler, Matthias
AU  - Lederer, Maximilian
AU  - Lehmann, Steffen
AU  - Simon, Maik
AU  - Su, Meng
AU  - Vliex, Patrick
AU  - Waassen, Stefan Van
AU  - Witt, Christian
AU  - Zetzsche, Dennis
TI  - Evaluation of cryogenic model libraries for FDSOI CMOS transistors
M1  - FZJ-2025-04448
PY  - 2025
AB  - Scalable quantum computers demand innovative solutions to tackle the wiring bottleneck and control an increasing number of qubits. Cryogenic electronics based on CMOS technologies are promising candidates which can operate down to deep-cryogenic temperatures and act as a communication and control interface to the quantum layer. However, the performance of transistors used in these circuits is altered significantly when cooling from room temperature to cryogenic temperatures, which motivates accurate cryogenic modeling of transistors. In this paper, we report on a cryogenic simulation library tailored specifically to fully depleted silicon-on-insulator (FDSOI) transistors. We validated the accuracy of our preliminary model library by comparing simulations at both the device and circuit levels with experimental measurements from single transistors, ring oscillators, and a transimpedance amplifier. Our models effectively capture the DC behavior across the temperature range from 8 K to room temperature.
LB  - PUB:(DE-HGF)25
DO  - DOI:10.36227/techrxiv.176162139.98868081/v1
UR  - https://juser.fz-juelich.de/record/1047673
ER  -